In the rugged and remote highlands of India’s Trans-Himalayan Ladakh region, the elusive snow leopard, Panthera uncia, reigns supreme as one of the most iconic big cats on the planet. Yet, despite its cultural and ecological significance, understanding the true distribution and population size of this elusive predator has long challenged conservationists. A groundbreaking study published May 7, 2025, in the open-access journal PLOS One now sheds unprecedented light on snow leopard populations in this vast and rugged landscape, pioneering standardized methods that promise to revolutionize evidence-based conservation across the species’ entire range.
The team, led by Pankaj Raina of the Union Territory of Ladakh’s Department of Wildlife Protection, undertook what is currently the world’s most comprehensive assessment of snow leopards in India. Conducted over an expansive area of 59,000 square kilometers, the research employed a multifaceted approach combining traditional ecological survey techniques with cutting-edge artificial intelligence-based image analysis. This hybrid methodology not only enhanced the accuracy of population estimates but also created resources critical for long-term monitoring and anti-poaching efforts.
Snow leopards are notoriously difficult to study because of their reclusive behavior, solitary lifestyles, and preference for inaccessible mountain terrain. The study began with an exhaustive field survey across the Ladakh landscape, carefully documenting indirect signs of snow leopard presence, such as paw prints, fecal deposits, and characteristic scratch markings. Researchers also cataloged signs of other apex predators like brown bears and lynx, alongside sightings and evidence of sympatric wild herbivores and livestock, to establish a comprehensive ecosystem context.
To overcome the challenges of direct observation, the research team deployed an extensive grid of 956 camera traps, strategically positioned to cover over 8,500 square kilometers within areas occupied by snow leopards. These remote, motion-triggered cameras captured thousands of high-resolution images, allowing researchers to gather vital data on the density and distribution of individual animals without intrusive human presence. The sheer scale and density of camera deployment are unprecedented for snow leopard research anywhere in the world.
Yet, the standout innovation in this endeavor was the utilization of advanced pattern-recognition software designed to identify individual snow leopards by their unique forehead spot patterns. This “fingerprinting” technique uses three-dimensional modeling to extract and catalogue spot configurations from the photographic data, automating a process that traditionally required painstaking manual identification. This automation not only accelerated analysis but also significantly increased the accuracy and reliability of population estimates based on capture-recapture statistical models.
The findings reveal that Ladakh harbors approximately 477 snow leopards, representing an astounding 68% of India’s total population. This density places Ladakh among the most critical global strongholds for the species, with remarkable variability in concentrations—ranging between one and three individuals per 100 square kilometers. Notably, Hemis National Park within Ladakh boasts the highest snow leopard densities ever recorded worldwide, underscoring the conservation significance of this protected area.
Intriguingly, the study highlights that 61% of these majestic cats live in close proximity to human settlements, coexisting alongside rural communities. This coexistence is attributed to abundant prey availability, complex mountainous terrain that reduces human disturbance, and a temperate climate supporting rich grasslands. Such conditions not only foster healthy snow leopard populations but also sustain prey species and livestock critical to local livelihoods.
The researchers emphasize that the sustained survival and thriving of snow leopards in Ladakh are inextricably linked to a tapestry of ecological and cultural factors. A deeply ingrained respect and reverence for wildlife, embedded in the ethos of Ladakhi communities, coupled with effective conflict management strategies and economic incentives derived from snow leopard tourism, combine to create a conservation model of global significance.
Astonishingly, the team devised a novel field technique to capture the cameras’ prized photographs: by subtly spraying a small amount of perfume beneath cameras located near the leopards’ favored scent-marking rocks on high ridgelines, researchers triggered the big cats’ natural curiosity. This clever lure encouraged snow leopards to lower their heads directly in front of the lenses, ensuring clear visibility of their distinctive forehead markings—critical data for the sophisticated pattern recognition system.
The study’s comprehensive methodology offers an exemplary template for ongoing monitoring efforts not only in Ladakh but throughout the snow leopard’s extensive range across Central and South Asia’s mountain landscapes. The national photo library compiled from this project serves as a powerful tool for conservationists, enabling real-time tracking of individual animals, monitoring population changes, and detecting poaching or illegal trafficking activities.
By standardizing population estimation methods, this research paves the way for more precise, repeatable, and scalable assessments of snow leopard populations globally. The availability of reliable baseline data is vital for evaluating the impact of conservation interventions and for setting informed policies to mitigate human-wildlife conflict, habitat fragmentation, and climate change effects that threaten these enigmatic felines.
Moreover, the integration of technology with traditional ecological knowledge exemplifies a future-forward approach that harnesses data science while respecting and leveraging local cultural values. This harmonious blend of cutting-edge research tools and community engagement is one reason why Ladakh maintains exceptionally high densities of snow leopards compared to other parts of their range, where poaching and human encroachment have led to severe population declines.
As snow leopards silently traverse the remote crags and valleys of Ladakh, this research validates the persistence of a species once deemed lost to the shadows. It offers hope and a replicable model for conservationists worldwide seeking to safeguard not only snow leopards but also the fragile mountain ecosystems they occupy. The legacy of collaborative science, innovative technology, and deep-rooted cultural respect promises a sustainable future for these “ghost cats” of the high Himalayas.
Subject of Research: Animals
Article Title: Comprehensive assessment of snow leopard distribution and population in the Indian Trans-Himalaya, Ladakh: Standardizing methods for evidence-based conservation
News Publication Date: 7-May-2025
Web References: http://dx.doi.org/10.1371/journal.pone.0322136
References: Raina P, Mungi NA, Kumar U, Rathi AD, Khan NH, Patel DA, et al. (2025) Comprehensive assessment of snow leopard distribution and population in the Indian Trans-Himalaya, Ladakh: Standardizing methods for evidence-based conservation. PLoS One 20(5): e0322136.
Image Credits: Department of Wildlife Protection, UT Ladakh, CC-BY 4.0
Keywords: Snow leopard, Panthera uncia, Ladakh, conservation, population assessment, camera trapping, AI pattern recognition, Hemis National Park, wildlife monitoring, human-wildlife coexistence, remote sensing, Trans-Himalaya
Tags: anti-poaching strategiesartificial intelligence in wildlife researchbig cat conservation challengesconservation of snow leopardsecological survey techniquesevidence-based conservation methodsLadakh wildlife protectionPLOS One publicationremote highland ecosystemssnow leopard habitat assessmentsnow leopard population densityTrans-Himalayan ecosystem